阅读说明：本技术 一种高强度合金铜导体退火装置 (High strength alloy copper conductor annealing device ) 是由 朱春城 蒋爱祥 唐静 于 2019-10-14 设计创作，主要内容包括：本发明一种高强度合金铜导体退火装置,包括退火箱,其特征在于：所述退火箱内包括第一退火轮、第二退火轮、感应电源和蒸汽发生器,所述感应电源的一侧设有感应线圈,所述铜导体位于所述退火箱的部分依次经第一退火轮、第二退火轮后穿过感应线圈后到回到第一退火轮导出,所述蒸汽发生器位于所述感应线圈的下方,所述退火箱的外部的一侧设有放线盘,所述退火箱的另一侧设有收线盘。与现有技术相比,本发明提供的一种高强度合金铜导体退火装置,结构合理,通过感应电流加热退火,传输路径阻力很小,退火导线不会被拉细；退火速度高；退火效率高,节能明显；对环境不产生任何污染；结构简单；安装方便快捷,操作上手简单。(The invention relates to a high-strength alloy copper conductor annealing device, which comprises an annealing box and is characterized in that: including first annealing wheel, second annealing wheel, induction power source and steam generator in the annealing box, one side of induction power source is equipped with induction coil, the copper conductor is located the part of annealing box passes induction coil after first annealing wheel, second annealing wheel in proper order and leads to getting back to first annealing wheel, steam generator is located induction coil's below, one side of the outside of annealing box is equipped with the drawing drum, the opposite side of annealing box is equipped with the take-up reel. Compared with the prior art, the annealing device for the high-strength alloy copper conductor provided by the invention has a reasonable structure, the resistance of a transmission path is very small by heating and annealing through induction current, and an annealing wire cannot be thinned; the annealing speed is high; the annealing efficiency is high, and the energy is saved obviously; no pollution is caused to the environment; the structure is simple; the installation is convenient and fast, and the operation is simple.)

1. The utility model provides a high strength alloy copper conductor annealing device, includes annealing box (1), drawing drum (6), take-up reel (7) and cooling cistern (8), its characterized in that: the annealing box (1) comprises a first annealing wheel (2), a second annealing wheel (3), an induction power supply (4) and a steam generator (9), one side of the induction power supply (4) is provided with an induction coil (41), the part of the copper conductor (5) positioned in the annealing box (1) passes through the induction coil (41) after passing through the first annealing wheel (2) and the second annealing wheel (3) in sequence and then is led out after returning to the first annealing wheel (2), the steam generator (9) is positioned below the induction coil (41), an air outlet (91) of the steam generator (9) is over against the induction coil (41), a pay-off reel (6) is arranged on one side of the outer part of the annealing box (1), a take-up reel (7) is arranged on the other side of the annealing box (1), and a cooling liquid tank (8) is arranged between the annealing box (1) and the take-up reel (7).

2. The annealing apparatus for high-strength alloy copper conductor according to claim 1, wherein: one side of steam generator (9) is equipped with inlet tube (92), inlet tube (92) run through the outer wall and the water source of annealing case (1) are connected, the top of annealing case (1) is equipped with discharge valve (13).

3. The annealing apparatus for high-strength alloy copper conductor according to claim 1, wherein: the steam generator (9) adopts a normal-pressure steam generator with the power of 400 w.

4. The annealing apparatus for high-strength alloy copper conductor according to claim 1, wherein: the front side and the rear side of the annealing box (1) are provided with extension support tubes (11) convenient for the copper conductors (5) to smoothly pass in and out, and a plurality of steering wheels (12) convenient for the copper conductors (5) to adjust the advancing direction are arranged inside the annealing box (1).

5. The annealing apparatus for high-strength alloy copper conductor according to claim 1, wherein: annealing case (1) outside is equipped with a plurality of and is convenient for copper conductor (5) adjust advancing direction turn to device (61), turn to device (61) and be located around drawing drum (6), take-up reel (7) and cooling cistern (8).

6. The annealing apparatus for high-strength alloy copper conductor according to claim 1, wherein: and a cooling wheel (81) is arranged in the cooling liquid tank (8), cooling liquid is filled in the cooling liquid tank (8), the lower part of the cooling wheel (81) is positioned in the cooling liquid, and the copper conductor (5) passes through the lower part of the cooling wheel (81).

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of cable manufacturing and processing, in particular to a high-strength alloy copper conductor annealing device.

[ background of the invention ]

Annealing is an essential step for wire processing, and is a heat treatment process for materials, and aims to heat a copper conductor hardened due to lattice change in a stretching process at a certain temperature so as to restore the softness required by the process after molecular lattices are rearranged. In the traditional annealing process, an electric heating tube is adopted in an annealing part to heat and anneal a copper conductor, but firstly, electric energy is converted into heat energy by the electric heating tube, then, the heat energy is transferred to a stainless steel annealing tube by heat radiation and air propaganda, and then, the heat energy is transferred to the copper conductor by the stainless steel annealing tube to achieve the effect of heating the copper conductor.

[ summary of the invention ]

The invention aims to overcome the defects of the prior art and provide a high-strength alloy copper conductor annealing device, which aims to solve the problems that the energy consumption of a copper conductor in the prior art is too large and the effect is not good in the traditional annealing process device.

In order to achieve the purpose, the invention discloses a high-strength alloy copper conductor annealing device, which comprises an annealing box, a pay-off reel, a take-up reel and a cooling liquid tank, and is characterized in that: including first annealing wheel, second annealing wheel, induction power source and steam generator in the annealing box, one side of induction power source is equipped with induction coil, the copper conductor is located the part of annealing box passes induction coil after first annealing wheel, second annealing wheel in proper order and derives to get back to first annealing wheel, steam generator is located induction coil's below, steam generator's gas outlet is just right induction coil, one side of the outside of annealing box is equipped with the drawing drum, the opposite side of annealing box is equipped with the take-up reel, the annealing box with be equipped with the cooling cistern between the take-up reel.

Preferably, one side of the steam generator is provided with a water inlet pipe, the water inlet pipe penetrates through the outer wall of the annealing box and is connected with a water source, and an exhaust valve is arranged above the annealing box.

Preferably, the steam generator adopts a normal-pressure steam generator with the power of 400 w.

Preferably, the front side and the rear side of the annealing box are provided with extension support pipes which are convenient for the copper conductors to smoothly pass in and out, and a plurality of steering wheels which are convenient for the copper conductors to adjust the advancing direction are arranged inside the annealing box.

Preferably, a plurality of steering devices convenient for the copper conductor to adjust the advancing direction are arranged outside the annealing box, and the steering devices are positioned around the pay-off reel, the take-up reel and the cooling liquid tank.

Preferably, a cooling wheel is arranged in the cooling liquid tank, cooling liquid is filled in the cooling liquid tank, the lower part of the cooling wheel is positioned in the cooling liquid, and the copper conductor passes through the lower part of the cooling wheel.

The invention has the beneficial effects that: compared with the prior art, the annealing device for the high-strength alloy copper conductor provided by the invention has a reasonable structure, the resistance of a transmission path is very small by heating and annealing through induction current, and an annealing wire cannot be thinned; the annealing speed is high; the annealing efficiency is high, and the energy is saved obviously; no pollution is caused to the environment; the structure is simple; the installation is convenient and fast, and the operation is simple.

The features and advantages of the present invention will be described in detail by embodiments in conjunction with the accompanying drawings.

[ description of the drawings ]

Fig. 1 is a schematic structural diagram of an annealing apparatus for a high-strength alloy copper conductor according to an embodiment of the present invention.

In the figure: 1-an annealing box, 11-an extension supporting pipe, 12-a steering wheel, 13-an exhaust valve, 2-a first annealing wheel, 3-a second annealing wheel, 4-an induction power supply, 5-a copper conductor, 6-a pay-off reel, 7-a take-up reel, 8-a cooling liquid tank, 81-a cooling wheel, 9-a steam generator, 91-an air outlet and 92-a water inlet pipe.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood, however, that the description herein of specific embodiments is only intended to illustrate the invention and not to limit the scope of the invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Referring to fig. 1, an embodiment of the present invention provides a high-strength alloy copper conductor annealing apparatus, including an annealing box 1, a pay-off reel 6, a take-up reel 7, and a cooling liquid tank 8, and its characteristics are: including first annealing wheel 2, second annealing wheel 3, induction source 4 and steam generator 9 in annealing case 1, one side of induction source 4 is equipped with induction coil 41, copper conductor 5 is located annealing case 1's part passes induction coil 41 back in proper order through first annealing wheel 2, second annealing wheel 3 and leads to getting back to first annealing wheel 2, steam generator 9 is located induction coil 41's below, steam generator 9's gas outlet 91 is just right induction coil 41, one side of annealing case 1's outside is equipped with drawing drum 6, annealing case 1's opposite side is equipped with take-up reel 7, annealing case 1 with be equipped with cooling cistern 8 between the take-up reel 7.

One side of steam generator 9 is equipped with inlet tube 92, inlet tube 92 runs through the outer wall and the water source of annealing case 1 are connected, the top of annealing case 1 is equipped with discharge valve 13. The steam generator 9 adopts a normal-pressure steam generator with the power of 400 w.

The front side and the rear side of the annealing box 1 are provided with extension support tubes 11 which are convenient for the copper conductors 5 to smoothly pass in and out, and a plurality of steering wheels 12 which are convenient for the copper conductors 5 to adjust the advancing direction are arranged inside the annealing box 1.

A plurality of steering devices 61 convenient for the copper conductor 5 to adjust the advancing direction are arranged outside the annealing box 1, and the steering devices 61 are positioned around the pay-off reel 6, the take-up reel 7 and the cooling liquid tank 8.

A cooling wheel 81 is arranged in the cooling liquid tank 8, cooling liquid is filled in the cooling liquid tank 8, the lower part of the cooling wheel 81 is positioned in the cooling liquid, and the copper conductor 5 passes through the lower part of the cooling wheel 81.

The working process of the invention is as follows:

the invention relates to a high-strength alloy copper conductor annealing device, which discharges a copper conductor 5 from a pay-off reel 6, firstly turns through a turning device 61, then enters an annealing box 1 through an extension supporting pipe 11, in the annealing box 1, the copper conductor 5 sequentially passes through a first annealing wheel 2 and a second annealing wheel 3, then passes through an induction coil 41, and then returns to the first annealing wheel 2 to be discharged, when passing through the induction coil 41, the copper conductor 5 is opposite to a secondary side load of the induction coil 41, when a primary side winding passes through alternating current, a larger induced current passes through the secondary side load, namely the copper conductor 5, so that the copper conductor 5 is heated, the purpose of annealing is achieved, the linear velocity of the copper conductor 5 can be adjusted as required to adjust the heating time and temperature, in the annealing process, a steam generator 9 at the lower part simultaneously works, and steam is generated to protect an annealing section from being oxidized, after leaving the annealing box 1, the copper conductor 5 enters the cooling liquid tank 8 through the steering device 61, is cooled under the action of the cooling wheel 81, and enters the take-up reel 7 to be collected after leaving the cooling liquid tank 8.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents or improvements made within the spirit and principle of the present invention should be included in the scope of the present invention.